tnc3-firmware/TNC/HdlcFrame.hpp

213 wiersze
5.6 KiB
C++

// Copyright 2015-2019 Mobilinkd LLC <rob@mobilinkd.com>
// All rights reserved.
#ifndef MOBILINKD__HDLC_FRAME_HPP_
#define MOBILINKD__HDLC_FRAME_HPP_
#ifndef EXCLUDE_CRC
#include "stm32l4xx_hal.h"
extern CRC_HandleTypeDef hcrc;
#endif
#include "cmsis_os.h"
#include <Log.h>
#include "SegmentedBuffer.hpp"
#include <boost/intrusive/list.hpp>
#include <iterator>
#include <algorithm>
namespace mobilinkd { namespace tnc { namespace hdlc {
using boost::intrusive::list_base_hook;
using boost::intrusive::list;
using boost::intrusive::constant_time_size;
template <typename POOL, POOL* allocator>
class Frame : public list_base_hook<>
{
public:
typedef POOL pool_type;
typedef buffer::SegmentedBuffer<POOL, allocator> data_type;
typedef typename data_type::iterator iterator;
enum Type {
DATA = 0, TX_DELAY, P_PERSIST, SLOT_TIME, TX_TAIL, DUPLEX, HARDWARE,
TEXT, LOG};
enum Source {
RF_DATA = 0x00, SERIAL_DATA = 0x10, DIGI_DATA = 0x20,
FRAME_RETURN = 0xF0};
private:
data_type data_;
int crc_{-1};
int fcs_{-2};
bool complete_{false};
uint8_t frame_type_{Type::DATA};
#ifndef EXCLUDE_CRC
uint16_t compute_crc(iterator first) {
uint16_t bytes = data_.size();
uint16_t block_size = std::min(bytes, POOL::chunk_type::size());
uint32_t checksum = HAL_CRC_Calculate(&hcrc, (uint32_t*) &(*first), block_size);
bytes -= block_size;
std::advance(first, block_size);
while (bytes) {
block_size = std::min(bytes, POOL::chunk_type::size());
checksum = HAL_CRC_Accumulate(&hcrc, (uint32_t*) &(*first), block_size);
bytes -= block_size;
std::advance(first, block_size);
}
checksum ^= 0xFFFF; // Compliment
checksum <<= 16; // Shift
asm volatile("rbit %0, %0" : "+r" (checksum)); // Reverse
uint16_t result = checksum & 0xFFFF;
DEBUG("CRC = %hx", result);
return result;
}
#else
uint16_t compute_crc(iterator first, iterator last) {return 0;}
#endif
public:
Frame()
: list_base_hook<>(), data_(), crc_(-1), fcs_(-2), complete_(false)
{}
uint8_t type() const {return frame_type_ & 0x0F;}
void type(uint8_t t) {frame_type_ |= ((frame_type_ & 0xF0) | t);}
uint8_t source() const {return frame_type_ & 0xF0;}
void source(uint8_t s) {frame_type_ |= ((frame_type_ & 0x0F) | s);}
void clear() {
data_.clear();
crc_ = -1;
fcs_ = -2;
complete_ = false;
frame_type_ = 0; // RF_DATA.
}
void assign(data_type& data) {
data_.splice(data_.end(), data);
}
uint16_t size() const {return data_.size();}
uint16_t crc() const {return crc_;}
uint16_t fcs() const {return fcs_;}
bool complete() const {return complete_;}
bool ok() const {return crc_ == 0x0f47; /*0xf0b8;*/}
typename data_type::iterator begin() { return data_.begin(); }
typename data_type::iterator end() { return data_.end(); }
bool push_back(uint8_t value)
{
return data_.push_back(value);
}
void add_fcs() { // TX frames have the checksums added.
fcs_ = compute_crc(data_.begin());
data_.push_back(uint8_t(fcs_ & 0xFF));
data_.push_back(uint8_t((fcs_ >> 8) & 0xFF));
crc_ = 0x0f47;
complete_ = true;
}
void parse_fcs() { // RX frames have the checksums parsed.
auto it = data_.begin();
std::advance(it, data_.size() - 2);
fcs_ = (*it);
++it;
fcs_ |= (*it) << 8;
DEBUG("FCS = %hx", fcs_);
crc_ = compute_crc(data_.begin());
complete_ = true;
}
};
template <typename Frame, size_t SIZE = 16>
class FramePool
{
public:
typedef Frame frame_type;
typedef list<frame_type, constant_time_size<false>> FrameList;
private:
static const uint16_t FRAME_COUNT = SIZE;
frame_type frames_[FRAME_COUNT];
FrameList free_list_;
public:
FramePool()
: frames_(), free_list_()
{
for (auto& frame : frames_) {
free_list_.push_back(frame);
}
}
uint16_t size() const {return free_list_.size();}
frame_type* acquire() {
frame_type* result = nullptr;
auto x = taskENTER_CRITICAL_FROM_ISR();
if (!free_list_.empty()) {
result = &free_list_.front();
free_list_.pop_front();
}
taskEXIT_CRITICAL_FROM_ISR(x);
DEBUG("Acquired frame %p (size after = %d)", result, free_list_.size());
return result;
}
void release(frame_type* frame) {
DEBUG("Released frame %p (size before = %d)", frame, free_list_.size());
frame->clear();
auto x = taskENTER_CRITICAL_FROM_ISR();
free_list_.push_back(*frame);
taskEXIT_CRITICAL_FROM_ISR(x);
}
};
typedef buffer::Pool<48> FrameSegmentPool; // 12K buffer of frames;
extern FrameSegmentPool frameSegmentPool;
typedef Frame<FrameSegmentPool, &frameSegmentPool> IoFrame;
typedef FramePool<IoFrame, 48> IoFramePool;
IoFramePool& ioFramePool(void);
/**
* This is needed to work around a major defect in the GCC 5.2.0 compiler
* that causes functions using ioFramePool().release(frame) to use an
* extremely large amount of stack space (4-6K vs. 24 bytes).
*
* This function merely acts as a compiler firewall to the stack usage.
* It's own stack usage is minimal even though it is making the same call.
*
* @param frame
*/
void release(IoFrame* frame);
IoFrame* acquire(void);
IoFrame* acquire_wait(void);
}}} // mobilinkd::tnc::hdlc
#endif // MOBILINKD__HDLC_FRAME_HPP_